Category: Desktop Virtualization

AMD is improving user experiences across a wide variety of platforms including VMware Horizon 6. AMD designs and integrates technology for the new era of computing. AMD technology powers all the leading consumer gaming console solutions ensuring our GPU (Graphics Processing Unit) technology leadership. In the professional graphics market we deliver high performance GPU-based compute solutions using open standards like OpenCL while also delivering industry-leading SPECviewperf 12 performance for workstation graphics solutions. At AMD we want to deliver enterprise-ready GPU technologies not just to standalone workstations and servers but also to users of Horizon 6.

AMD GPU products drive a better user experience for desktop and application delivery. Horizon 6 perfectly blends the needs of the enterprise with a great end-user experience, enhancing that user experience In Horizon 6 with GPU technology is a key area AMD is focusing on.

You may not have heard of AMD GPUs being used in VMware Horizon products. Let’s clarify that right now. AMD has a fully certified vSphere 5.5 solution with vSGA (virtual shared graphics acceleration) graphics delivery. Plus we are investing further to bring even more capabilities to Horizon 6 and current VMware View users.

AMD offers products to address the needs of Horizon 6 users. Our FirePro S Series products provide data center-ready GPUs and when combined with our Sky Technology software we deliver a solution that is ready for vSphere and Horizon. Our workstation AMD FirePro product range will also be enabled to support workstation use cases in Horizon 6 environments.

vSGA: Shared Graphics for Knowledge Worker UsersUsing an AMD FirePro S series GPU for servers brings exceptional GPU performance to knowledge worker users when used with our Sky Technology vSGA VIB driver. This brings DirectX capabilities to mainstream VDI knowledge worker users in a cost effective manner using VMware’s vSGA technology with VDI desktops. Knowledge worker users are coming from platforms that had either an integrated or enterprise GPU, it’s therefore essential to have the option to bring better GPU capabilities to users who will need it. You have users who on occasion use imaging and desktop publishing and you also have power users who build presentations or other business collateral where graphics performance helps deliver results. Putting a more cost effective AMD FirePro S series GPU allows those select users to access a GPU that is virtualized by VMware’s vSGA technology across all servers. This allows for technologies like vMotion to be used to ensure better uptime and support for DR scenarios.

With AMD FirePro S series you can afford to deploy our entry level AMD FirePro S7000 on ALL VDI servers ensuring user satisfaction on Horizon deployments.

Beyond vSGAAMD is working with VMware on new technologies, including vDGA (virtual dedicated graphics acceleration), to deliver workstation-class GPU performance to Horizon platforms. AMD is also developing solutions for multi-user support from a single GPU. Stay tuned! Like the choices you have on storage and networking in your deployments, AMD is here to bring choice to GPUs. This helps your Horizon 6 deployments exceed your users expectations.

Along with our major announcement of VMware Horizon 6 Wednesday, VMware have announced VMware Mirage 5.0!

We’ve been working hard to support various new and exciting features. With Mirage 5.0 we continue with our unified image management support for the latest Windows operating system – Windows 8.1. IT can use VMware Mirage to migrate their end user’s existing Windows 7 devices onto Windows 8.1 The dynamic layering flexibility that Mirage customers are used to with Windows XP, Vista, and 7 has now been extended to support Windows 8.1. And with our previous Mirage 4.4 release, Windows 8 and 8.1 devices could be protected with automated backup and full system recovery options. We also introduced the Mirage Gateway in 4.4. We’ve been enhancing the Mirage Gateway for higher scalability and performance across distributed environments. Let’s take a look at these Mirage 5.0 features more in-depth:

Windows 8.1 Migration Support – Windows 7 devices can be migrated to Windows 8.1 in Mirage 5.0. Customers will realize the same great benefits with using Mirage for migration of Windows 7 to Windows 8.1 as they did for migration of Windows XP to Windows 7. A snapshot is taken before the migration even begins, so a safety-net is in place in case anything goes wrong during the migration. The end-user downtime is still a minimum amount, usually 30 minutes to an hour. And migrations from Windows 7 to 8.1 can be performed at grand scale. IT can mass migrate dozens to hundreds of devices per day.

Windows 8.1 Image Management Support – One of the key differentiators between Mirage and other image management solutions is the dynamic layering technology available in Mirage. As part of these layers that IT manages, IT can now distribute base and application layers to Windows 8.1 devices. This means IT can provision OS images, applications, and patches across distributed LAN or WAN environments. The flexibility in layering allows IT to easily manage which applications are removed or preserved during layer updates on Windows 8.1 devices. This fast type of provisioning even complements and extends IT shops that already have PCLM tools they may be using, and helps lower helpdesk support costs.

Windows 8 and 8.1 Disaster Recovery – Automated backup and full system recovery were features that were added to Mirage 4.4, which is already GA. However, we thought we’d highlight this feature to reiterate the benefits received with disaster recovery support for Windows 8 and 8.1. Several quick restore options are available, such as self-service restore, restoring entire devices from one piece of hardware to another, or just restoring applications and user data.

Mirage Gateway Enhancements – The Mirage Gateway was also introduced in Mirage 4.4. It essentially gives end-users an automatic way to connect from remote or branch locations, without the need to VPN back into the Mirage infrastructure in the datacenter. For distributed environments, the Mirage Gateway helps simplify endpoint management of distributed users across the WAN. In Mirage 5.0, we’ve tuned up the performance and scalability so that less infrastructure is required to support the Mirage Gateway. This greatly simplifies manageability of not only the backend infrastructure, but also the managed endpoints.

Mirage 5.0 will be generally available soon. If you have a next-generation environment that supports Windows 8.1, you’ll definitely want to give Mirage 5.0 a try! For more updates, please visit us on Facebook, follow us on Twitter, or discuss in our Communities.

Cloud Pod Architecture and Multi-Data-Center View in Horizon 6

One of the key features of the Horizon Cloud Pod Architecture is the high availability and scale-out of virtual desktops in VMware Horizon 6. Many of you may have heard about this feature referred to as Linked-Mode View or Multi-Data-Center View or Federated View Pods. All of these mean the same thing.

Today, virtual desktops provided by Horizon can be deployed using a block and pod architecture, or design. (Refer to sections titled View Building Blocks and View Pods in the View Architecture Planning Guide.) A single View pod can contain up to five View blocks, can scale up to 10,000 (10K) desktops, and can be deployed in a single data center. Customers looking to scale beyond 10K desktops can deploy multiple View pods. However, each View pod is an independent entity that has its own user entitlements and is managed separately. With the new Horizon 6 Cloud Pod Architecture, customers can aggregate multiple View pods in either the same data center or different data centers and entitle users to a desktop in any location.

Now, let’s look at an example that describes this feature in its entirety. Figure 1 below shows two View pods—Pod 1 and Pod 2. Pod 1 is located in a data center in the United States, and Pod 2 is located in a data center in India. Each pod has two connection brokers—VCS1 and VCS2 in Pod 1, VCS3 and VCS4 in Pod 2. Both Pod 1 and Pod 2 maintain their own user entitlements, which provide a mapping of an end user to a virtual desktop in the respective pod. The new architecture in Horizon 6 introduces two new elements:

A global entitlement layer which spans multiple pods (shown as a single layer spanning Pod 1 and Pod 2 in the diagram)

An inter-pod communication layer (shown with a bi-directional arrow between Pod 1 and Pod 2 in the diagram)

This new architecture provides three major benefits:

Support for active-active deployments – Customers who have multiple data centers can now leverage all the data-center assets efficiently. They can entitle users to desktops either in one or in multiple data centers.

Consolidation of multiple pods within a single data center – Multiple pods of desktops within the same data center can be consolidated and managed centrally through a single global user-entitlement layer.

Disaster recovery – The global user-entitlement layer can be used to assign a user to desktops in both Pod 1 and Pod 2. If Pod 1 were to become unavailable either due to a data-center failure or to another form of failure, the user could always get to a desktop in Pod 2. It is important to note that this feature assumes that the desktops in Pod 1 and Pod 2 are replicated using some form of data-replication technology.

Figure 1: Cloud Pod Architecture with Pod 1 in U.S. and Pod 2 in India

Brokering a Desktop in a Cloud Pod Architecture

Figure 1 conceptually illustrates how two View pods can be used to entitle users to desktops in different data centers. Brokering a desktop to a user who logs in from any location follows the simple workflow below:

1. The end user enters the URL or IP address for their View environment, which can be an address of a View Connection Server (broker) or a load balancer, and enters their credentials.

2. The broker looks up both local and global entitlements for the user.

3. The broker gets the current desktop state via inter-pod protocol and returns a list of desktops to the client.

4. The user selects a desktop.

5. If the desktop is remote, the broker launches the remote desktop via inter-pod protocol.

6. The client connects to the remote desktop directly or via a local tunnel.

The top use cases for end-user desktop access are as follows:

Global roaming desktop – This is a use case where the end user needs access to a desktop only to access their Windows-based applications. An end user can be located either in India or the U.S. with an entitlement to a nonpersistent desktop pool. The end user gets a desktop in their connected pod (that is, close to their client location—If they connect from India, they get a desktop in India).

Global home desktop – This is the typical case where the end user wants to get the same persistent desktop every time they request access, irrespective of their location. To accomplish this, persistent desktop pools in all pods need to be set up. The FromHome policy can be used to direct the user back to their home site. The end user gets the same desktop machine irrespective of which pod they are connected to.

Local scale desktop – In this use case, each site has multiple pods, each offering a standard nonpersistent desktop pool. A global entitlement layer provided by Cloud Pod Architecture joins all these pools together. Using the site’s Scope policy, one can control and limit access to a desktop that is available within the site.

Global Entitlement

The global entitlement layer controls the mapping of end users to desktops in a Cloud Pod Architecture. Global entitlement consists of a set of parameters as shown in Figure 2:

Figure 2: Global Entitlement in the Cloud Pod Architecture

Following are the various parameters of global entitlement:

Name – Name of the global entitlement

Members – The users and/or groups that share the global entitlement

Desktops – Desktops that the members of the global entitlement are entitled to

Scope – Controls the scope of search when placing a new desktop session. This allows the administrator to control the amount of cross-data-center traffic.

FromHome (true/false) – This controls where the desktop search is started. When false, it starts from the current pod; when true, it starts from the user’s home site.

The scope can be one of:

Local – Look only in the local pod for available desktops

Site – Look in all pods in the local site (typically in the same data center)

All – Look across all pods for an available desktop to service the request

The search order favors local resources, starting in the same pod that the user connected to, then extending to the same site, and then across the entire linked environment. In addition to this default search order, administrators can nominate a home site for a single user or for a group of users. When a global entitlement has the FromHome policy set, the search for a new desktop is started in the user’s home site and not the current connected pod. This ensures that, where needed, the desktop session remains close to any backend resources it needs.

Scale Limits and Maximums

The Cloud Pod Architecture was developed with the goal of scaling View desktop deployments to hundreds of data centers and tens of thousands of desktops. To deliver this capability in time for product launch, the VMware team has done a phenomenal job of validating this feature by focusing the testing efforts on the following scale-out parameters:

Number of pods – 4

Number of sites – 2

Number of desktops – 20,000

This scale is just the beginning, and the team at VMware is committed to increasing these numbers over the next few releases.

Architectural Assumptions

A number of architectural assumptions have been made in delivering this feature:

The deployment can have both persistent (stateful) and nonpersistent (stateless) desktops

A third-party load balancer such as Geographic DNS or a similar product provides the single-URL capability

Replication of desktops or end-user data is provided by a third-party data replication technology

WAN links between data centers are sufficiently provisioned and have good latency characteristics—however, the feature works on low-bandwidth, high-latency connections and does not impose either a latency drag or additional bandwidth. It is important to note that user experience varies with both the latency and the bandwidth between data centers.

All pods are accessible to each other across the corporate network

As you can see, the Horizon Cloud Pod Architecture further advances end-user mobility by delivering desktops from any data center in any geographic location. This is just the beginning of the journey to the hybrid DaaS era!

By Warren Ponder, Director of Product Management, End-User Computing, VMware and Pat Lee, Director of End-User Clients, End-User Computing, VMwareToday, I am really excited to share another exciting project I was to be asked to support our team in delivering, with the announcement of Horizon 6. One of the many new capabilities that will be available is application remoting of RDS hosted apps and extended capabilities for RDS based desktops.

There’s been some speculation and many experts have had some really good questions about how, what and why we are doing this so I wanted to provide some color to many of the questions I know people have.

Why Application Remoting now?

Several factors came into play in our decision but the primary factor was customer demand. We spent a lot of time with customers across the globe that included all sizes, levels of expertise, and stages of their journey toward a mobile-cloud vision. We didn’t focus on what we already knew about application remoting, but how customers were actually using app remoting today – what they like, don’t like, and the role they see it playing in the future. We wanted to make sure we understood how their needs around app remoting had evolved so we could introduce the appropriate improvements.

With the increase of mobile devices and cloud services, the mobile-cloud era is upon us. It’s changing the landscape. More than ever customers are looking for simplicity and converged infrastructure. They look to VMware as a strategic partner to deliver SDDC and EUC capabilities supporting their Hybrid Cloud efforts. Working closely with customers it was made clear to us that delivering a single platform that converges virtual desktops, RDS hosted apps, SaaS apps, virtualized ThinApps and even third party solutions such as Citrix XenApp is what customers needed to be successful. This all needs to be possible though a unified workspace that gives their users one place to go for access and consumption.

Building upon what we already have

Some have speculated it would take years for us to build anything serious but that was not the case when adding this capability into VMware Horizon 6 because we had most of what was needed to support App Remoting for some time. Let’s take a look at some of the key components for on-prem or hybrid cloud deployments supporting app remoting:

Session Brokering, Load Balancing and Cloud Pods

Orchestration

Resource bursting, VM migration and Elasticity

Image management and provisioning

Blast and Blast with PCoIP remoting protocol

Broad set of clients for different access devices

Monitoring and Management

Integration with RDSH (Remote Desktop Session Host)

Support for RDS or Terminal Server based desktops has always existed in Horizon View. Expanding upon our existing support, we worked closely with Microsoft to build our own protocol provider for RDS. With our own protocol provider we are able to integrate our graphics and protocol stacks such as Blast with PCoIP. This also allows us to eventually enable other remoting capabilities we provide with the Blast user experience on virtual desktops

This is the only proper, supported, way to integrate with Microsoft RDS. Although it’s not an easy undertaking, it provides several benefits. Windows OS and other capabilities unique to RDSH like fair share CPU scheduling, or IP virtualization are all supported. Applications that need session level information, leveraging WTS API’s all work without ISV’s having to do anything special or unfamiliar. Administrators familiar with managing or designing RDSH based desktop or app remoting solutions will feel right at home.

Providing a seamless remoted app experience

A key component of remoting apps is seamless windows. This is the ability to remote one or more applications to the user. Applications should have the behavior and experience of running locally. Two of our personal desktop products, Fusion and Workstation have provided a similar feature for years called Unity. Unity seamlessly integrates applications running in a local VM with the host operating system. Building upon this, we extended it to remotely display applications across networks.

Today, we bring all of our experience making Windows apps run well on multiple platforms with Horizon 6 and deliver an amazing Windows remote application experience for Windows, Mac, iOS and Android users.

From Windows XP SP3 to Windows 8.1 Update 1, the Windows client delivers a great remote application experience for Windows users. With individual applications that have seamless windows in the task bar, jumplist integration and favorites, and the ability to save desktop shortcuts for apps and desktops, the Windows client makes it’s easy to get to your apps and desktops when you want them.

Mac users get the most seamless way to run remote Windows applications. Use common Mac keyboard shortcuts for cut, copy, and paste. Windows applications show up as individual applications on the dock and you can quit individual Windows applications or open windows using standard Mac keyboard shortcuts. Finally, you can leverage Mission Control to switch to any open Windows application or

window and much more.

On iOS and Android, swipe to bring up the intuitive sidebar to switch between open application windows, close a specific open window or application, or easily open a new application.

Integration across Horizon 6

Integration with VMware View is seamless and strait forward. Customers can upgrade existing environments and instantly have the ability to remote RDSH hosted desktops or apps. The only thing needed is the RDSH servers.

View provides ability to create farms, which are groups of RDSH servers hosting apps or desktops. Within View, app pools are created and used to organize application entitlement for users or groups. App Pools can be created automatically using applications discovered across farms. Unique apps that are not registered or started using scripts can also be created manually. Apps can mixed with hosts serving RDSH desktops. Apps can come from multiple farms and a user can also access multiple apps simultaneously.

Users will be able to access their RDS hosted apps or desktops using devices from our broad ecosystem of device partners and the Horizon Client for Windows, Mac, iOS or Android. A client for Linux will also be available soon.

A unified workspace is possible though Horizon Workspace integration. Users can access their SaaS, ThinApps, RDS hosted apps, even apps from Citrix XenApp from one, unified workspace that provides a consistent experience across any device.

Enhanced Management

Need some management? The vCenter Operations team has expanded vCenter operations to include support for RDSH hosts, including integration with PCoIP stats monitoring on a per session basis from RDSH.

In support of our hybrid cloud delivery, all components of Horizon 6 have been built with a focus on flexibility to ensure that customers can choose on-premise or off-premise or both to deliver a common and consistent experience to their end users from a single Horizon client.

As you can see, a lot of work went into adding this capability to Horizon 6 but we truly believe customers will find that our unified approach and support for all types of applications and desktops can save them time, money and spare them a lot of headaches.

One of the most common things every design document has is a conceptual diagram showing how the entire solution fits together. Citrix XenApp 7.5 and Citrix XenDesktop 7.5 is no different.
If you looked at the XenApp 7.5 and XenDesktop 7.5 blueprint blog, you would have seen a new conceptual diagram based on the Citrix 5-layer model (Users, Access, Resources, Control and Hardware).

The good news is that I’ve put all of these images into a new Microsoft Visio stencil. But it gets better!!!

Daniel Feller – Lead Architect receives a lot of emails from Citrix architects and admins who want the Visio diagram in addition to the stencil. Daniel end up sending these out because it saves many of you a lot of time so you don’t have to recreate the wheel (I mean diagram). So Daniel started to think about how I can make the diagram available to everyone as well. Eureka!

Simply make the diagram into a stencil!!! So simple and it works

So when you download the Visio stencil, the first two items will be the Conceptual and Detailed Architecture diagrams.

Amazon officially enters the desktop virtualisation market with the release of its new WorkSpaces

Amazon Web Services has finally caught up with its rivals in regards to virtual desktop implementations (VDI).

It’s a strange fact that AWS, so far ahead of the curve in hosted cloud services that most other competitors can’t even see its dust, was so equally far behind a slew of other companies — such as Dell Wyse, VMware, Moka Five,nComputing, and Hewlett-Packard — in a sector that is some 15 years old.

AWS WorkSpaces

In truth, the VDI business has always had some type of nagging problem shadowing it over the years: expense, management complexity, latency, and implementation difficulties being foremost among them. Only in the last few years have most of these issues been solved.

With this as background, AWS on 26 March announced the general availability of Amazon WorkSpaces, a fully managed desktop computing service in the cloud that was originally introduced in limited preview at AWS re:Invent in Las Vegas last November.

At the same time, Amazon made it a point to talk trash about private clouds – which, according to a number of industry studies, are now the most popular type of cloud being built.

“All the things you have to spend a lot of money for in a private cloud – security, full automation, monitoring, many other things – we already have at AWS,” Andy Jassy, Amazon Web Services Vice President for Cloud Services, told about 4,000 attendees at an AWS Summit in San Francisco.

Jassy also cited a recent Forrester Research paper that concluded that “92 percent of private clouds are still falling short of the core requirements of self-service, full automation, tracking and monitoring.”

“If you’re not planning on using the public cloud in some significant fashion, you will be at a significant competitive disadvantage,” Jassy said. “Private clouds offer none of the benefits of a robust public cloud and are simply a stopgap solution.”

One enticement for WorkSpaces will that it will cost about half that of current VDI systems, Jassy said. Go here for more details.

Seamless Movement

AWS said the service will work on a number of devices and will allow users to seamlessly move their sessions between desktops, tablets and smartphones. Amazon provided a pricing guide showing a range of $35 (£21) to $75 (£45) per workspace used per month. There is no upfront fee and Workspaces can be added or deleted on a monthly basis.

The desktop virtualisation offering marks a departure for AWS in that the company’s traditional offerings focused on replacing traditional data centre operations, but WorkSpaces offers a direct inroad to customer-device management.

“We believe that eventually very few enterprises will run their own data centres,” Jassy said. “That guides our approach in how we build. We will meet enterprises where they are now, but we will make it simple to transition to where the future workloads will be, in the cloud.”

VDI technology, which stumbled for a few years until some of its inherent problems were solved, is a hot sector again. Earlier this month, VMware launched its Horizon DaaS (desktop as a service), a new cloud-based service that it claims delivers cost-effective, enterprise-class virtual desktops running on VMware vCloud Hybrid Service.

VMware announce the availability of VMware Horizon DaaS, built on vCloud Hybrid Service. VMware Horizon DaaS provides Windows desktops and applications as a cloud service, to any device, anywhere, with a predictable monthly subscription.

Why DaaS?

The demand for cloud-hosted virtual desktops has reached a tipping point. We’re seeing a variety of factors contribute to this demand. End users are more diverse than ever before and they want to work from anywhere, on any device. IT is under a ton of pressure to enable this diverse, mobile workforce to get work done and that means being able to access corporate data, applications and resources. It’s now IT’s job to balance these requirements with security, operational simplicity and at the same time control cost.

Virtual desktops have emerged as a great solution as they enable desktops to be centrally located, yet accessed from anywhere on any device. Yet for many customers, on-premise virtual desktop infrastructure does not meet their needs. They may not have the upfront capital to get up and running, or the IT skills to deploy and operate the infrastructure. Or they lack the agility to get from zero to desktop in days versus months.

That’s where Horizon DaaS comes in. Horizon DaaS enables IT to move towards an OPEX model that eliminates capital outlay and enables them to pay only for what they use. Since VMware provides the support and management of the underlying DaaS infrastructure, minimal expertise is required. And with a cloud service, you gain the flexibility to scale up/down as business needs change.

Customer requirements for DaaS

With DaaS garnering so much attention, many providers are trying to stake claim to delivering desktops-as-a-service. Don’t be fooled. Having pioneered the concept of desktop-as-a-service in 2007, we know from customers that to deliver a successful DaaS offering, you need to:

Deliver a great end user experience on any device

Provide access to genuine Windows Client desktops

Build your service from the ground up for the cloud

Provide enterprise grade service and support

Market-leading DaaS with Horizon DaaS

Only VMware Horizon DaaS delivers on all of these requirements:

Adaptive end-user experience – Through the power of Horizon View Client and Blast, Horizon DaaS provides a premium experience that adapts to changing network conditions. And we support access from any device, whether it be a zero client, thin client, PC, Mac, tablet, phone or even from a browser or Google Chromebook. And we make it easy to access Windows desktops from a mobile device with features such as gestures and easy access to frequently used files and applications. It’s the reason why Gartner recently recognized Horizon View Client for delivering a great experience from any device, anywhere.

Full Windows Client virtual desktops – Although Horizon DaaS provides Windows Server hosted desktops like other vendors in the marketplace; our experience has told us that customers prefer full Windows Client virtual desktop. With Windows Client desktops on Horizon DaaS we can provide the end-user experience, application compatibility, and security that enterprises require.

Built for the cloud from the ground up – While other vendors have tried to stitch their on-premise VDI products together, put them in the cloud and call them DaaS, Horizon DaaS was built for cloud from the get go. It’s built on a multi-tenant grid architecture that was designed for cloud-scale.

Enterprise-grade service, support, and SLA – Feedback from our customers is clear: they expect enterprise-grade service and they want to know that when they have an issue they can get someone on the phone to help them 24×7. With VMware Horizon DaaS you gain access to the proven expertise of specialists that know how to run cloud-hosted desktops at scale with integrated 24×7 phone support and a 99.9% SLA.

And with VMware, customers get access to the only vendor that can deliver hybrid DaaS: on-premise and cloud-hosted virtual desktops. IT gets greater flexibility to choose the option that works best for them, while providing end users a single client that spans any cloud.

IBM have released one of their Redbooks titled: “Implementing Citrix XenDesktop on IBM
Flex System”.

The Redbook contains 432 pages covers IBM’s SmartCloud Desktop Infrastructure, a solution
of running the Virtual Desktop Infrastructure (VDI) product from Citrix using the VMware
vSphere virtualization platform running on top of IBM Flex Systems. The document provides
an overview of the solution, including planning and deployment considerations including
step-by-step instructions on how to build the solution.

The IBM® SmartCloud Desktop Infrastructure offers robust, cost-effective, and manageable virtual desktop solutions for a wide range of clients,
user types, and industry segments. These solutions help to increase business flexibility and staff productivity, reduce IT complexity, and simplify
security and compliance. Based on a reference architecture approach, this infrastructure supports various hardware, software, and hypervisor
platforms.

The SmartCloud Desktop Infrastructure solution with Citrix XenDesktop running on IBM Flex System™ offers tailored solutions for every business,
from the affordable all-in-one Citrix VDI-in-a-Box for simple IT organizations to the enterprise-wide Citrix XenDesktop. XenDesktop is a comprehensive
desktop virtualization solution with multiple delivery models that is optimized for flexibility and cost-efficiency.

This IBM Redbooks® publication provides an overview of the SmartCloud Desktop Infrastructure solution, which is based on Citrix XenDesktop
running on IBM Flex System. It highlights key components, architecture, and benefits of this solution. It also provides planning and deployment
considerations, and step-by-step instructions about how to perform specific tasks.

This book is intended for IT professionals who are involved in the planning, design, deployment, and management of the IBM SmartCloud® Desktop
Infrastructure built on IBM Flex System running Citrix XenDesktop.